% FEMuS/libMesh
% Manservisi_2024 states this article uses FEMuS.
% FEMuS incorporates various libMesh source files
% by copy/pasting them directly into its codebase.
@Article{Chirco_2019,
  author  = {L. Chirco and R. {Da Vi{\`{a}}} and S. Manservisi},
  title   = {{VOF evaluation of the surface tension by using variational representation and Galerkin interpolation projection}},
  journal = {Journal of Computational Physics},
  month   = oct,
  year    = 2019,
  volume  = 395,
  pages   = {537--562},
  note    = {\url{https://doi.org/10.1016/j.jcp.2019.06.036}}
}

% FEMuS/libMesh
% Manservisi_2024 states this article uses FEMuS.
% FEMuS incorporates various libMesh source files
% by copy/pasting them directly into its codebase.
@Article{DaVia_2019,
  author  = {Roberto {Da Vi{\`{a}}} and Sandro Manservisi},
  title   = {Numerical simulation of forced and mixed convection turbulent liquid sodium flow over a vertical backward facing step with a four parameter turbulence model},
  journal = {International Journal of Heat and Mass Transfer},
  month   = jun,
  year    = 2019,
  volume  = 135,
  pages   = {591--603},
  note    = {\url{https://doi.org/10.1016/j.ijheatmasstransfer.2019.01.129}}
}

% MOOSE
% "The model was implemented using the open-source finite-element code MOOSE ..."
@Article{Abdoelatef_2019,
  author  = {M. Gomaa Abdoelatef and Fergany Badry and Daniel Schwen and Cody Permann and Yongfeng Zhang and Karim Ahmed},
  title   = {{Mesoscale modeling of high burn-up structure formation and evolution in UO$_2$}},
  journal = {Journal of the Minerals, Metals, and Materials Society (JOM)},
  month   = dec,
  year    = 2019,
  volume  = 71,
  pages   = {4817--4828},
  note    = {\url{https://doi.org/10.1007/s11837-019-03830-z}}
}

% MOOSE
% https://www.researchgate.net/publication/350157814_Native_MOOSE_Meshing_Capability_for_Light_Water_Reactor_Analysis
@InProceedings{Lee_2019,
  author    = {Jieun Lee and Sebastian Schunert and Derek Gaston and Yaqi Wang and Javier Ortensi and Mark D. DeHart and Yassin Hassan},
  title     = {{Native MOOSE meshing capability for light water reactor analysis}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2019)}},
  address   = {Portland, Oregon},
  month     = aug # {~25--29,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/yurnbt6p}}
}

% MOOSE
% "... et est utilise dans le module Tensor Mechanics du solveur multiphysique MOOSE"
@phdthesis{Nachar_thesis,
  author = {St{\'{e}}phane Nachar},
  school = {Universit{\'{e}} Paris-Saclay},
  title  = {{Optimisation de structures viscoplastiques par couplage entre m\'{e}tamod\`{e}le multi-fid\'{e}lit\'{e} et mod{\`{e}}les r{\'{e}}duits}},
  note   = {\url{https://tel.archives-ouvertes.fr/tel-02324894}},
  month  = oct,
  year   = 2019
}

% MOOSE/MOSKITO
% This paper does not cite or mention MOOSE, so it originally flew under my radar, but in Esmaeilpour_2021 it is stated:
% "A finite element code, called MOSKITO ... has been developed by the second author using MOOSE framework"
% https://www.geothermal-library.org/index.php?mode=pubs&action=view&record=1034180
% http://pubs.geothermal-library.org/lib/grc/1034180.pdf
@Article{Korzani_2019,
  author  = {Maziar Gholami Korzani and Fabian Nitschke and Sebastian Held and Thomas Kohl},
  title   = {The development of a fully coupled wellbore-reservoir simulator for geothermal application},
  journal = {GRC Transactions},
  year    = 2019,
  volume  = 43,
  pages   = {927--936},
  note    = {\url{https://tinyurl.com/8md19m7r}}
}

% Akselos
% "The modal parameters are expanded to a highresolution stress field solution (MDE) via a calibrated FE-model (Digital Twin) representing the considered asset."
% https://www.onepetro.org/conference-paper/ISOPE-I-19-354
@InProceedings{Pedersen_2019,
  author    = {Erik Bouvin Pedersen and Dennis J{\o}rgensen and Hans J{\o}rgen Riber and Jonas Ballani and Sylvain Vallagh{\'{e}} and Benjamin Paccaud},
  title     = {True fatigue life calculation using digital twin concept and operational modal analysis},
  booktitle = {{Proceedings of the 29th International Ocean and Polar Engineering Conference}},
  address   = {Honolulu, Hawaii},
  pages     = {ISOPE-I-19-354 (9 pages)},
  month     = jun # {~16--21,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/y2koecqm}}
}

% Akselos
% "... using a high-resolution finite element model of the asset, delivered by Akselos unique RB-FEA technology."
@InProceedings{Knezevic_2019,
  author    = {David Knezevic and Emmanuel Fakas and Hans Jorgen Riber},
  title     = {{Predictive digital twins for structural integrity management and asset life extension -- JIP concept and results}},
  booktitle = {{Proceedings of the SPE Offshore Europe Conference and Exhibition}},
  address   = {Aberdeen, UK},
  pages     = {SPE-195762-MS (6 pages)},
  month     = sep # {~3--6,},
  year      = 2019,
  note      = {\url{https://doi.org/10.2118/195762-MS}}
}

% MOOSE/Golem
% "Golem is a flexible, parallel scalable finite element ... simulator .. based on the MOOSE framework"
% http://d-nb.info/1216040656
@phdthesis{Freymark_thesis,
  author = {Jessica Katja Freymark},
  school = {RWTH Aachen University},
  title  = {{Implications of the 3D structural and density configuration for the thermal and hydraulic fields of the Upper Rhine Graben}},
  note   = {\url{https://doi.org/10.18154/RWTH-2019-08279}},
  month  = jul,
  year   = 2019
}

% MASTODON
% https://repository.lib.ncsu.edu/bitstream/handle/1840.20/37683/SMiRT_25_special_session_spra.pdf?sequence=1
@InProceedings{Bolisetti_2019,
  author    = {Chandrakanth Bolisetti and Saran Bodda and Andrew Slaughter and Justin Coleman},
  title     = {{Seismic probabilistic risk assessment using MASTODON}},
  booktitle = {{Proceedings of the 25th Conference on Structural Mechanics in Reactor Technology (SMiRT-25)}},
  address   = {Charlotte, North Carolina},
  month     = aug # {~4--9,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/ya6avzh4}}
}

% BISON
% https://www.osti.gov/servlets/purl/1607080
% https://www.osti.gov/biblio/1607080-modeling-ifr-metallic-fuel-experiment-bison-through-neams-workbench
@InProceedings{Cunningham_2019b,
  author    = {Kaylee Cunningham and Jeffrey Powers and Robert A. Lefebvre},
  title     = {{Modeling the IFR-1 metallic fuel experiment in Bison through the NEAMS Workbench}},
  booktitle = {Transactions of the American Nuclear Society Winter Meeting},
  address   = {Washington, DC},
  month     = nov # {~17--21,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/wnc9cw6}}
}

% BISON
@TechReport{Zabriskie_2019b,
  author      = {Adam X. Zabriskie and Kevan D. Weaver},
  title       = {{Select transient metallic fuel Bison benchmarks}},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2019,
  number      = {INL/EXT-19-55892},
  note        = {\url{https://doi.org/10.2172/1604753}}
}

% libMesh
% "The local and cassical schemes have been implemented with the help of the C++ library libMesh..."
% https://mathicse.epfl.ch/wp-content/uploads/2018/10/Report-10.2018_AA_GR.pdf
@Article{Abdulle_2019,
  author  = {Assyr Abdulle and Giacomo Rosilho {de Souza}},
  title   = {{A local discontinuous Galerkin gradient discretization method for linear and quasilinear elliptic equations}},
  journal = {ESAIM: Mathematical Modelling and Numerical Analysis},
  month   = jul,
  year    = 2019,
  volume  = 53,
  number  = 4,
  pages   = {1269--1303},
  note    = {\url{https://doi.org/10.1051/m2an/2019022}, ArXiv e-print: \url{https://arxiv.org/abs/1807.10645}, MATHICSE Tech.~Report 10.2018: \url{https://tinyurl.com/yd53zyts}}
}

% libMesh
% "libMesh-sedimentation [27] is a Computational Fluid Dynamics workflow in the
% Geoscience domain, used in the O&G industry. It implements a simulation solver
% built on top of a widely used parallel finite element library, libMesh..."
% https://www.researchgate.net/publication/338107804_Supporting_User_Steering_In_Large-Scale_Workflows_With_Provenance_Data/references
@phdthesis{Souza_thesis,
  author = {Renan Souza},
  school = {Federal University of Rio de Janeiro},
  title  = {Supporting user steering in large-scale workflows with provenance data},
  note   = {\url{https://tinyurl.com/wt7dna4}},
  month  = dec,
  year   = 2019
}

% libMesh
% "...the implementation of this code has taken advantage of two well-known software libraries,
% libMesh (Kirk et al., 2006) and PETSc (Balay et al., 1997)."
% https://research.library.mun.ca/13842/1/thesis.pdf
@phdthesis{Ahammad_thesis,
  author = {Mohammad Jalal Ahammad},
  school = {Memorial University of Newfoundland},
  title  = {A CFD and experimental approach for simulating the coupled flow dynamics of near wellbore and reservoir},
  note   = {\url{https://research.library.mun.ca/13842}},
  month  = jun,
  year   = 2019
}

% https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/xg94hw655
@phdthesis{Harter_thesis,
  author = {Jackson R. Harter},
  school = {Oregon State University},
  title  = {Advanced deterministic phonon transport techniques for predicting spectral thermal conductivity in homogeneous and heterogeneous media},
  note   = {\url{https://tinyurl.com/uqwzpor}},
  month  = oct,
  year   = 2019
}

% Uses the libmesh git repo as a dataset. The author apparently has only one name,
% his first name is listed as "FNU" on the NC State website.
@mastersthesis{Vivek_masters,
  author = {Vivek},
  school = {North Carolina State University},
  title  = {{LocalMine -- Probabilistic keyword model for software text mining}},
  note   = {\url{https://repository.lib.ncsu.edu/handle/1840.20/37161}},
  month  = nov,
  year   = 2019
}

% MOOSE
@mastersthesis{Ozturk_masters,
  author = {Abdurrahman Ozturk},
  school = {University of South Carolina},
  title  = {{Implementation of view factor model and radiative heat transfer model in MOOSE}},
  note   = {\url{https://scholarcommons.sc.edu/etd/5348/}},
  month  = aug,
  year   = 2019
}

% libMesh
% "We implement our topology optimization framework on top of
% the parallel finite element library libMesh [51], which allows
% us to address large scale problems."
@phdthesis{SalazardeTroya_thesis,
  author = {Miguel Angel A. {Salazar de Troya}},
  school = {University of Illinois at Urbana-Champaign},
  title  = {Adaptive mesh refinement in topology optimization},
  note   = {\url{http://hdl.handle.net/2142/104776}},
  month  = aug,
  year   = 2019
}

% GRINS
@mastersthesis{Mishra_masters,
  author = {Abhishek Mishra},
  school = {State University of New York at Buffalo},
  title  = {A variational implementation of immersed boundary method for fluid-structure interaction problems},
  note   = {\url{http://hdl.handle.net/10477/79963}},
  month  = jun,
  year   = 2019
}

% GRINS
@phdthesis{Boutkov_thesis,
  author = {Boris Boutkov},
  school = {State University of New York at Buffalo},
  title  = {{Geometric multigrid for unstructured finite elements: Implementation and applications}},
  note   = {\url{http://hdl.handle.net/10477/79992}},
  month  = jun,
  year   = 2019
}

% GRINS
@phdthesis{Adowski_thesis,
  author = {Timothy Adowski},
  school = {State University of New York at Buffalo},
  title  = {Statistical inference of heterogeneous surface catalycity models using simulated laser absorption spectroscopy in reacting flow},
  note   = {\url{http://hdl.handle.net/10477/80034}},
  month  = jun,
  year   = 2019
}

% MOOSE
% "As a significant part of this work relies on using an open-source code
% library (MOOSE), I would like to acknowledge the technical support
% from the MOOSE developers at the Idaho National Laboratory."
% https://search.proquest.com/openview/23ae3dfda2dd91c6ad4050985be825cd
@phdthesis{Hsu_thesis,
  author = {Yu-Ting Hsu},
  school = {Carnegie Mellon University},
  title  = {Simulation of local electrochemistry in solid oxide fuel cell microstructures by high performance computation},
  note   = {\url{https://tinyurl.com/yxdzk9d8}},
  month  = mar,
  year   = 2019
}

% MOOSE
% https://ir.library.oregonstate.edu/concern/graduate_thesis_or_dissertations/5q47rv25t
@phdthesis{Zabriskie_thesis,
  author = {Adam X. Zabriskie},
  school = {Oregon State University},
  title  = {{Multi-scale, multi-physics reactor pulse simulation method with macroscopic and microscopic feedback effects}},
  note   = {\url{https://tinyurl.com/yxhavkq9}},
  month  = mar,
  year   = 2019
}

% IBAMR
% https://search.proquest.com/openview/7eee47a66fb6a9afef22ef0aa5c8b998
@phdthesis{Barrett_thesis,
  author = {Aaron Barrett},
  school = {University of North Carolina at Chapel Hill},
  title  = {{An adaptive viscoelastic fluid solver: Formulation, verification, and applications to fluid-structure interaction}},
  note   = {\url{https://tinyurl.com/y3rw5e7d}},
  month  = sep,
  year   = 2019
}

% MOOSE/TRICORDER
% https://pdfs.semanticscholar.org/6f32/f469fd2f5f37599a7c8fe2d356295efb7dc0.pdf
@InProceedings{Winkle_2019,
  author    = {Tristan Winkle},
  title     = {{Passive and active cooling analysis of decay heat cooling of nuclear thermal propulsion systems}},
  booktitle = {{Proceedings of the Nuclear and Emerging Technologies for Space, American Nuclear Society Topical Meeting (NETS 2019)}},
  address   = {Richland, Washington},
  month     = feb # {~25--28,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/uwe33vt}}
}

% GRINS
@Article{Adowski_2019,
  author  = {Timothy R. Adowski and Paul T. Bauman},
  title   = {Computational modeling of laser absorption in reacting flows},
  journal = {Journal of Thermophysics and Heat Transfer},
  month   = jul,
  year    = 2019,
  volume  = 33,
  number  = 3,
  pages   = {738--748},
  note    = {\url{https://doi.org/10.2514/1.T5593}}
}

% BISON
% https://www.iaea.org/publications/13604/fuel-modelling-in-accident-conditions-fumac
@TechReport{Veshchunov_2019,
  author      = {M. Veshchunov},
  title       = {{Fuel Modelling in Accident Conditions (FUMAC)}},
  institution = {International Atomic Energy Agency},
  month       = dec,
  year        = 2019,
  number      = {IAEA-TECDOC-1889},
  note        = {\url{https://tinyurl.com/vej63do}}
}

% BISON
% "Compared with the simulation result of BISON software in open literature, ..."
@Article{Changbing_2019,
  author  = {Tang Changbing and Jiao Yongjun and Li Yuanming and Zhou Yi and Pang Hua},
  title   = {{Preliminary research on the irradiation-thermal-mechanical coupling behavior simulation method of FCM fuel}},
  journal = {International Journal of Advanced Nuclear Reactor Design and Technology},
  month   = dec,
  year    = 2019,
  volume  = 1,
  pages   = {51--56},
  note    = {\url{https://doi.org/10.1016/j.jandt.2019.10.002}}
}

% BISON
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_5898.pdf
% https://www.osti.gov/biblio/1561098-review-fuel-performance-modelling
@Article{VanUffelen_2019,
  author  = {P. {Van Uffelen} and J. Hales and W. Li and G. Rossiter and R. Williamson},
  title   = {A review of fuel performance modelling},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2019,
  volume  = 516,
  pages   = {373--412},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2018.12.037}}
}

% "The quadrature formulas we used are implemented in the library libmesh [37]"
@Article{Caboussat_2019,
  author  = {Alexandre Caboussat and Roland Glowinski and Dimitrios Gourzoulidis and Marco Picasso},
  title   = {Numerical approximation of orthogonal maps},
  journal = {SIAM Journal on Scientific Computing},
  month   = dec,
  year    = 2019,
  volume  = 41,
  number  = 6,
  pages   = {B1341--B1367},
  note    = {\url{https://doi.org/10.1137/19M1243683}}
}

% "We implemented Algorithm 1 in libMesh..."
@Article{Fritz_2019,
  author  = {Marvin Fritz and Ernesto A. B. F. Lima and Vanja Nikoli{\'{c}} and J. Tinsley Oden and Barbara Wohlmuth},
  title   = {{Local and nonlocal phase-field models of tumor growth and invasion due to ECM degradation}},
  journal = {Mathematical Models and Methods in Applied Sciences},
  month   = dec,
  year    = 2019,
  volume  = 29,
  number  = 13,
  pages   = {2433--2468},
  note    = {\url{https://doi.org/10.1142/S0218202519500519}, ArXiv e-print: \url{https://arxiv.org/abs/1906.07788}}
}

% MOOSE
% "This study seeks to model the effective thermal conductivity of an ATF composite in MOOSE."
@Article{Badry_2019,
  author  = {Fergany Badry and Ryan Brito and M. Gomaa Abdoelatef and Sean McDeavitt and Karim Ahmed},
  title   = {{An experimentally validated mesoscale model of thermal conductivity of a UO$_2$ and BeO composite nuclear fuel}},
  journal = {Journal of the Minerals, Metals, and Materials Society (JOM)},
  month   = dec,
  year    = 2019,
  volume  = 71,
  number  = 12,
  pages   = {4829--4838},
  note    = {\url{https://doi.org/10.1007/s11837-019-03831-y}}
}

% https://www.researchgate.net/publication/337563373_IMPLEMENTATION_OF_THE_CONVECTED_LEVEL-SET_METHOD_WITH_ADAPTIVE_MESH_REFINEMENT_USING_LIBMESH
@InProceedings{Grave_2019,
  author    = {Mal{\'{u}} Grave and Jos{\'{e}} J. Camata and Alvaro L. G. A. Coutinho},
  title     = {{Implementation of the convected level-set method with adaptive mesh refinement using \texttt{libMesh}}},
  booktitle = {{Proceedings of the XL Iberian Latin-American Congress on Computational Methods in Engineering (CILAMCE 2019)}},
  address   = {Natal, Rio Grande do Norte, Brazil},
  month     = nov # {~11--14,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/rvws36n}}
}

% "We implemented our macro model into the MOOSE finite element framework [70]"
% Best Paper Finalist
% Presented Wednesday, 20 November 2019, 3:30-4pm
% https://sc19.supercomputing.org/presentation/?id=pap384&sess=sess165
% http://www.sci.utah.edu/~hbhatia/pubs/2019_SC_MUMMI.pdf
@InProceedings{DiNatale_2019,
  author    = {Francesco {Di Natale} and others},
  title     = {{A massively parallel infrastructure for adaptive multiscale simulations: Modeling RAS initiation pathway for cancer}},
  booktitle = {{In Proceedings of the ACM/IEEE International Conference for High Performance Computing, Networking, Storage and Analysis (SC19)}},
  address   = {Denver, Colorado, USA},
  month     = nov # {~17--22,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/vzem29m}}
}

% BISON
@Article{Radaideh_2019,
  author  = {Majdi I. Radaideh and Tomasz Kozlowski},
  title   = {Combining simulations and data with deep learning and uncertainty quantification for advanced energy modeling},
  journal = {International Journal of Energy Research},
  month   = nov,
  year    = 2019,
  volume  = 43,
  number  = 14,
  pages   = {7866--7890},
  note    = {\url{https://doi.org/10.1002/er.4698}}
}

% MOOSE/SAM
% https://www.osti.gov/biblio/1573236-integrated-simulation-capabilities-analysis-experiments-versatile-test-reactor
% https://publications.anl.gov/anlpubs/2019/11/156913.pdf
@TechReport{Burnett_2019,
  author      = {Acacia J. Burnett and Thanh Q. Hua and Guojun Hu and Dan O'Grady and Rui Hu and Thomas H. Fanning and George Zhang},
  title       = {{Integrated simulation capabilities for analysis of experiments in the Versatile Test Reactor}},
  institution = {Argonne National Laboratory},
  day         = 31,
  month       = oct,
  year        = 2019,
  number      = {ANL/NSE-19/39},
  note        = {\url{https://tinyurl.com/um7q99f}}
}

% MOOSE
@Article{Regenauer_2019,
  author  = {Klaus Regenauer-Lieb and Thomas Blach and Ankita Singh and Amalia Halim and Stuart Clark and Christoph Schrank},
  title   = {Rock physics for multiscale, multiphysics data assimilation from molecular to laboratory scale},
  journal = {ASEG Extended Abstracts},
  month   = nov,
  year    = 2019,
  volume  = 2019,
  number  = 1,
  pages   = {1--4},
  note    = {\url{https://doi.org/10.1080/22020586.2019.12073200}}
}

% MOOSE/BISON
% https://www.osti.gov/biblio/1572456-separate-effects-validation-experiments-models-fracture-ceramic-nuclear-fuel
% https://www.osti.gov/servlets/purl/1572456
@TechReport{Spencer_2019e,
  author      = {Benjamin W. Spencer and others},
  title       = {Separate-effects validation experiments for models of fracture in ceramic nuclear fuel},
  institution = {Idaho National Laboratory},
  day         = 26,
  month       = sep,
  year        = 2019,
  number      = {INL/CON-19-52564},
  note        = {Presented at Top Fuel 2019, Sep.~22--26, Seattle, WA, \url{https://tinyurl.com/sgugps7}}
}

% "The simulator is an application developed based on the MOOSE framework... "
@Article{JiaWang_2019,
  author  = {Jia Wang and Fabian Nitschke and Maziar Gholami Korzani and Thomas Kohl},
  title   = {Temperature log simulations in high-enthalpy boreholes},
  journal = {Geothermal Energy},
  month   = nov,
  year    = 2019,
  volume  = 7,
  pages   = {32 (21 pages)},
  note    = {\url{https://doi.org/10.1186/s40517-019-0149-0}}
}

% MOOSE/Grizzly
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_20189.pdf
% https://www.osti.gov/biblio/1572397-progress-grizzly-development-reactor-pressure-vessels-reinforced-concrete-structures
@TechReport{Spencer_2019d,
  author      = {Benjamin W. Spencer and William M. Hoffman and Daniel Schwen and Sudipta Biswas},
  title       = {{Progress on Grizzly development for reactor pressure vessels and reinforced concrete structures}},
  institution = {Idaho National Laboratory},
  day         = 30,
  month       = sep,
  year        = 2019,
  number      = {INL/EXT-19-56012},
  note        = {\url{https://doi.org/10.2172/1572397}}
}

% Apparently they use libmesh but not MOOSE?
% https://www.kns.org/files/pre_paper/42/19A-154-%EC%84%9C%EC%8A%B9%EC%A7%84.pdf
@InProceedings{Seo_2019,
  author    = {Seungjin Seo and Byunggi Park and Sungjung Kim and Hocheol Shin and Hwansu Lee and Sungyeol Choi},
  title     = {{New high fidelity multi-physics FEM based code to simulate the boron hide-out within CRUD layer}},
  booktitle = {Transactions of the Korean Nuclear Society Autumn Meeting},
  address   = {Goyang, Korea},
  month     = oct # {~24--25,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/y5bd3zt6}}
}

% MOOSE/MAMMOTH
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_20275.pdf
@TechReport{Calvin_2019b,
  author      = {Olin William Calvin and Mark D. DeHart},
  title       = {{Architecture for the performance of nuclear fuel depletion calculations}},
  institution = {Idaho National Laboratory},
  day         = 15,
  month       = nov,
  year        = 2019,
  number      = {INL/MIS-19-56187},
  note        = {\url{https://doi.org/10.2172/1572389}}
}

% libMesh
% "The numerical simulations were performed using the libMesh Finite Element library..."
@Article{Garg_2019b,
  author  = {Vikram V. Garg and Serge Prudhomme},
  title   = {Enhanced functional evaluation for the finite element penalty method},
  journal = {Computers \& Mathematics with Applications},
  month   = dec,
  year    = 2019,
  volume  = 78,
  number  = 12,
  pages   = {3821--3840},
  note    = {\url{https://doi.org/10.1016/j.camwa.2019.06.001}}
}

% BISON
% https://info.ornl.gov/sites/publications/Files/Pub127258.pdf
@TechReport{Cunningham_2019,
  author      = {Kaylee Cunningham and Robert A. Lefebvre and Jeffrey Powers and L. Paul Miller and Mark L. Baird and Brandon R. Langley},
  title       = {{NEAMS Workbench and BISON fuel performance remote application configuration}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2019,
  number      = {ORNL/TM-2019/1208},
  note        = {\url{https://doi.org/10.2172/1571847}}
}

% Moltres/MOOSE
% https://engrxiv.org/7ce89
% author:park author:huff author:rykhlevskii safety analysis molten salt
% https://experts.illinois.edu/en/publications/safety-analysis-of-the-molten-salt-fast-reactor-fuel-composition-
@InProceedings{Park_2019,
  author    = {Sun Myung Park and Andrei Rykhlevskii and Kathryn D. Huff},
  title     = {{Safety analysis of molten salt fast reactor fuel composition using Moltres}},
  booktitle = {{Proceedings of the 14th International Nuclear Fuel Cycle Conference and Light Water Reactor Fuel Performance Conference (Global/Top Fuel 2019)}},
  address   = {Seattle, Washington},
  month     = sep # {~22--27,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/y8aj2r9l}, engrXiv e-print: \url{https://doi.org/10.31224/osf.io/7ce89}}
}

% MOOSE
% "The large-scale heat-transfer model [is] implemented in MOOSE framework..."
% https://www.mdpi.com/2075-4701/9/11/1138
@Article{Pinomaa_2019,
  author  = {Tatu Pinomaa and Ivan Yashchuk and Matti Lindroos and Tom Andersson and Nikolas Provatas and Anssi Laukkanen},
  title   = {{Process-structure-properties-performance modeling for selective laser melting}},
  journal = {Metals Special Issue: Advanced Simulation Technologies of Metallurgical Processing},
  month   = oct,
  year    = 2019,
  volume  = 9,
  pages   = {1138 (18 pages)},
  note    = {\url{https://doi.org/10.3390/met9111138}}
}

% libMesh
% "So far the interface has been tested on three external solvers: OpenSees, libMesh and MFEM."
% https://www.page-meeting.org/?abstract=9168
% https://www.page-meeting.org/pdf_assets/3299-torstenUpdateZhangGillespiePAGE2019.pdf
@Misc{Zhang_2019,
  author       = {Yi Zhang and William R. Gillespie},
  title        = {Torsten: Stan functions for pharmacometric applications},
  address      = {Stockholm, Sweden},
  month        = jun # {~11--14,},
  year         = 2019,
  howpublished = {Poster, 28th Annual Meeting of the Population Approach Group in Europe (PAGE 2019)},
  note         = {\url{https://tinyurl.com/y6r5no6q}}
}

% MOOSE
% https://www.researchgate.net/publication/336869763_Development_and_Implementation_of_a_1-D_FEM_Compressible_Flow_Module_in_TRICORDER_-_A_MOOSE-based_Multi-Physics_Code
@InProceedings{Carasik_2019,
  author    = {Lane Carasik and Vishal Patel and Samuel Judd and Paolo Venneri},
  title     = {{Development and implementation of a 1-D FEM compressible flow module in TRICORDER --- A MOOSE-based multi-physics code}},
  booktitle = {{Proceedings of the 18th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-18)}},
  address   = {Portland, Oregon},
  month     = aug # {~18--23,},
  year      = 2019,
  note      = {\url{https://tinyurl.com/yynm4aaf}}
}

% "We use the finite-element library libMesh (Kirk et al., 2006) to implement a
% transient coupled ice flow-damage model."
@Article{Mercenier_2019,
  author  = {R. Mercenier and M. P. L{\"{u}}thi and A. Vieli},
  title   = {{A transient coupled ice flow-damage model to simulate iceberg calving from tidewater outlet glaciers}},
  journal = {Journal of Advances in Modeling Earth Systems},
  month   = sep,
  year    = 2019,
  volume  = 11,
  number  = 9,
  pages   = {3057--3072},
  note    = {\url{https://doi.org/10.1029/2018MS001567}}
}

% MOOSE
% "The coupled ... equations are solved using ... MOOSE"
@Article{Vyas_2019,
  author  = {S. Vyas and E. Goli and X. Zhang and P. H. Geubelle},
  title   = {{Manufacturing of unidirectional glass-fiber-reinforced composites via frontal polymerization: A numerical study}},
  journal = {Composites Science and Technology},
  month   = nov,
  year    = 2019,
  volume  = 184,
  pages   = {107832 (6 pages)},
  note    = {\url{https://doi.org/10.1016/j.compscitech.2019.107832}}
}

% libMesh/MOOSE/Moonolith
% "The variational transfer operators are implemented as userobjects in the MOOSE framework..."
@Article{vonPlanta_2019,
  author  = {Cyrill {von Planta} and Daniel Vogler and Xiaoquing Chen and Maria G. C. Nestola and Martin O. Saar and Rolf Krause},
  title   = {Simulation of hydro-mechanically coupled processes in rough rock fractures using an immersed boundary method and variational transfer operators},
  journal = {Computational Geosciences},
  month   = oct,
  year    = 2019,
  volume  = 23,
  number  = 5,
  pages   = {1125--1140},
  note    = {\url{https://doi.org/10.1007/s10596-019-09873-0}, ArXiv e-print: \url{https://arxiv.org/abs/1812.08572}}
}

% SAM/MOOSE
% https://publications.anl.gov/anlpubs/2019/10/155817.pdf
% https://www.osti.gov/biblio/1569948-multi-physics-simulations-heat-pipe-micro-reactor
@TechReport{GHu_2019c,
  author      = {G. Hu and R. Hu and J. M. Kelly and J. Ortensi},
  title       = {{Multi-physics simulations of heat pipe micro reactor}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = sep,
  year        = 2019,
  number      = {ANL/NSE-19/25},
  note        = {\url{https://doi.org/10.2172/1569948}}
}

% BISON
% "We also included irradiation-induced deformations of Zircaloy and
% UO 2 in the calculation, incorporating models from BISON..."
@Article{Hong_2019,
  author  = {Kisik Hong and J. R. Barber and M. D. Thouless and Wei Lu},
  title   = {{Cracking of Cr-coated accident-tolerant fuel during normal operation and under power-ramping conditions}},
  journal = {Nuclear Engineering and Design},
  month   = nov,
  year    = 2019,
  volume  = 353,
  pages   = {110275 (10 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2019.110275}}
}

% MOOSE/phase_field
% PFHub has MOOSE phase_field as one of its backends
@Article{Wheeler_2019,
  author  = {Daniel Wheeler and Trevor Keller and Stephen J. DeWitt and Andrea M. Jokisaari and Daniel Schwen and Jonathan E. Guyer and Larry K. Aagesen and Olle G. Heinonen and Michael R. Tonks and Peter W. Voorhees and James A. Warren},
  title   = {{PFHub: The Phase-Field Community Hub}},
  journal = {Journal of Open Research Software},
  month   = sep,
  year    = 2019,
  volume  = 7,
  number  = 1,
  pages   = {29 (7 pages)},
  note    = {\url{https://doi.org/10.5334/jors.276}}
}

% libMesh
% "Our implementation relies on the distributed data structures provided by libMesh"
@Article{Mesgarnejad_2019b,
  author  = {A. Mesgarnejad and A. Karma},
  title   = {{Phase field modeling of chemomechanical fracture of intercalation electrodes: Role of charging rate and dimensionality}},
  journal = {Journal of the Mechanics and Physics of Solids},
  month   = nov,
  year    = 2019,
  volume  = 132,
  pages   = {103696 (20 pages)},
  note    = {\url{https://doi.org/10.1016/j.jmps.2019.103696}, ArXiv e-print: \url{https://arxiv.org/abs/1906.07655}}
}

% MOOSE/MARMOT
% "A cluster dynamics method to track point defects and defect
% clusters has been implemented in the MARMOT phase-field code"
@Article{Matthews_2019b,
  author  = {Christopher Matthews and Romain Perriot and Michael W. D. Cooper and Christopher R. Stanek and David A. Andersson},
  title   = {{Cluster dynamics simulation of uranium self-diffusion during irradiation in UO$_2$}},
  journal = {Journal of Nuclear Materials},
  month   = dec,
  year    = 2019,
  volume  = 527,
  pages   = {151787 (17 pages)},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.151787}}
}

% BISON
% "To help meet these objectives a BISON fuel performance model was constructed..."
@InProceedings{Kamerman_2019,
  author    = {David Kamerman and Nicholas Woolstenhulme and Colby Jensen and Dan Wachs},
  title     = {{BISON fuel performance simulations of TREAT transients}},
  booktitle = {Transactions of the American Nuclear Society},
  volume    = 120,
  address   = {Minneapolis, Minnesota},
  pages     = {446--449},
  month     = jun # {~9--13,},
  year      = 2019,
  note      = {\url{http://www.ans.org/pubs/transactions/a_45403}}
}

% SAM/MOOSE
@TechReport{Hu_2019b,
  author      = {Rui Hu and Ling Zou and Guojun Hu},
  title       = {{SAM User's Guide}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2019,
  number      = {ANL/NSE-19/18},
  note        = {\url{https://doi.org/10.2172/1559541}}
}

% MOOSE
% "These constitutive models were implemented in a computational toolkit
% using the Multiphysics Object Oriented Simulation Environment (MOOSE)
% [53] for finite element simulations."
@Article{Pokharel_2019,
  author  = {Reeju Pokharel and Anirban Patra and Donald W. Brown and Bj{\o}rn Clausen and Sven C. Vogel and George T {Gray III}},
  title   = {{An analysis of phase stresses in additively manufactured 304L stainless steel using neutron diffraction measurements and crystal plasticity finite element simulations}},
  journal = {International Journal of Plasticity},
  month   = oct,
  year    = 2019,
  volume  = 121,
  pages   = {201--217},
  note    = {\url{https://doi.org/10.1016/j.ijplas.2019.06.005}}
}

% MOOSE
% "The Multiphysics Object Oriented Simulation Environment (MOOSE)
% in combination with GOLEM ... were used"
% https://www.adv-geosci.net/49/95/2019/
@Article{Blocher_2019,
  author  = {Guido Bl{\"{o}}cher and Christian Kluge and Harald Milsch and Mauro Cacace and Antoine B. Jacquey and Jean Schmittbuhl},
  title   = {{Permeability of matrix-fracture systems under mechanical loading -- constraints from laboratory experiments and 3-D numerical modelling}},
  journal = {Advances in Geosciences},
  month   = sep,
  year    = 2019,
  volume  = 49,
  pages   = {95--104},
  note    = {\url{https://doi.org/10.5194/adgeo-49-95-2019}}
}

% BISON
@TechReport{Schappel_2019,
  author      = {Danny Schappel and Kurt Terrani},
  title       = {{Key material properties for thermostructural analysis of Transformational Challenge Reactor core components}},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2019,
  number      = {ORNL/SPR-2019/1277},
  note        = {\url{https://doi.org/10.2172/1558508}}
}

% BISON
% https://info.ornl.gov/sites/publications/Files/Pub123683.pdf
% https://www.osti.gov/biblio/1557508-depletion-chemical-reaction-transport-high-burnup-nuclear-fuel
@TechReport{Simunovic_2019,
  author      = {Srdjan Simunovic and Jake W. McMurray and Theodore M. Besmann and Emily E. Moore and Kevin T. Clarno and William A. Wieselquist and Markus H. A. Piro},
  title       = {Depletion, chemical reaction and transport in high burnup nuclear fuel},
  institution = {Oak Ridge National Laboratory},
  day         = 1,
  month       = aug,
  year        = 2019,
  number      = {ORNL/SPR-2019/1104},
  note        = {\url{https://doi.org/10.2172/1557508}}
}

% MOOSE
% "For this the numerical simulator MOOSE framework combined with
% the reservoir simulation app GOLEM, ... were chosen."
@Article{Konrad_2019,
  author  = {Florian Konrad and Alexandros Savvatis and Florian Wellmann and Kai Zosseder},
  title   = {{Hydraulic behavior of fault zones in pump tests of geothermal wells: A parametric analysis using numerical simulations for the Upper Jurassic aquifer of the North Alpine Foreland Basin}},
  journal = {Geothermal Energy},
  month   = dec,
  year    = 2019,
  volume  = 7,
  pages   = {25 (28 pages)},
  note    = {\url{https://doi.org/10.1186/s40517-019-0137-4}}
}

% MOOSE
% "This includes standard compilers, scripting languages,
% and libraries, as well as pre-installed versions of
% several open source codes such as LAMMPS, Moose, ..."
@Article{Desai_2019,
  author  = {Saaketh Desai and Martin Hunt and Alejandro Strachan},
  title   = {{Online tools for uncertainty quantification in nanoHUB}},
  journal = {Journal of the Minerals, Metals, and Materials Society (JOM)},
  month   = aug,
  year    = 2019,
  volume  = 71,
  number  = 8,
  pages   = {2635--2645},
  note    = {\url{https://doi.org/10.1007/s11837-019-03534-4}}
}

% SAM
% https://www.osti.gov/biblio/1556071-initial-industry-collaborations-center-excellence
@TechReport{Shaver_2019,
  author      = {Dillon Shaver and Rui Hu and Prasad Vegendla and Ling Zou and Elia Merzari},
  title       = {{Initial industry collaborations of the Center of Excellence}},
  institution = {Argonne National Laboratory},
  day         = 30,
  month       = jun,
  year        = 2019,
  number      = {ANL/NSE-19/15},
  note        = {\url{https://doi.org/10.2172/1556071}}
}

% MOOSE
% "To study the dynamical evolution of conducting channel formation of
% our thin film structure, a self-consistent solution of Eqs. (6a) and
% (6b) is obtained by the Multiphysics Object-Oriented Simulation
% Environment (MOOSE) finite-element platform."
@Article{Sevic_2019,
  author  = {John F. Sevic and Nobuhiko P. Kobayashi},
  title   = {{A computational phase field study of conducting channel formation in dielectric thin films: A view toward the physical origins of resistive switching}},
  journal = {Journal of Applied Physics},
  month   = aug,
  year    = 2019,
  volume  = 126,
  number  = 6,
  pages   = {065305 (7 pages)},
  note    = {\url{https://doi.org/10.1063/1.5110911}, ArXiv e-print: \url{https://arxiv.org/abs/1903.00707}}
}

% MOOSE/phase_field
% "The model is numerically implemented by finite element method (FEM)
% within the program "NIsoS", developed by authors based on MOOSE
% framework"
@Article{YYang_2019,
  author  = {Yangyiwei Yang and Olav Ragnvaldsen and Yang Bai and Min Yi and Bai-Xiang Xu},
  title   = {{3D non-isothermal phase-field simulation of microstructure evolution during selective laser sintering}},
  journal = {npj Computational Materials},
  month   = aug,
  year    = 2019,
  volume  = 5,
  pages   = {81 (12 pages)},
  note    = {\url{https://doi.org/10.1038/s41524-019-0219-7}, ArXiv e-print: \url{https://arxiv.org/abs/1902.04519}}
}

% MOOSE/MAMMOTH
% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_18516.pdf
% https://www.osti.gov/biblio/1545534-implementation-depletion-architecture-mammoth-reactor-physics-application
@TechReport{Calvin_2019,
  author      = {Olin W. Calvin and Yaqi Wang and Javier Ortensi},
  title       = {{Implementation of depletion architecture in the MAMMOTH reactor physics application}},
  institution = {Idaho National Laboratory},
  day         = 8,
  month       = aug,
  year        = 2019,
  number      = {INL/EXP-19-54991},
  note        = {\url{https://tinyurl.com/y638xwfp}}
}

% libMesh
% "Utopia uses libMesh [34] for the finite element discretization"
@Article{Schadle_2019,
  author  = {Philipp Sch{\"{a}}dle and Patrick Zulian and Daniel Vogler and Sthavishtha R. Bhopalam and Maria G. C. Nestola and Anozie Ebigbo and Rolf Krause and Martin O. Saar},
  title   = {{3D non-conforming mesh model for flow in fractured porous media using Lagrange multipliers}},
  journal = {Computers \& Geosciences},
  month   = nov,
  year    = 2019,
  volume  = 132,
  pages   = {42--55},
  note    = {\url{https://doi.org/10.1016/j.cageo.2019.06.014}, ArXiv e-print: \url{https://arxiv.org/abs/1901.01901}}
}

% MOOSE
% Confirmed with Wen Jiang that they used MOOSE.
@Article{Chakraborty_2019,
  author  = {Pritam Chakraborty and Wen Jiang},
  title   = {Crystal plasticity-based creep model for solution-strengthened nickel-based alloys},
  journal = {International Journal of Materials and Structural Integrity},
  year    = 2019,
  volume  = 13,
  number  = {1--3},
  pages   = {144--159},
  note    = {\url{https://doi.org/10.1504/IJMSI.2019.100389}}
}

% MOOSE/MAMMOTH
% Note that the INL/CON number is correct. Even though this conference
% is in 2019, it is possible that they submitted the abstract in 2018.
@InProceedings{Laboure_2019b,
  author    = {Vincent M. Labour{\'{e}} and Javier Ortensi and Yaqi Wang and Sebastian Schunert and Frederick N. Gleicher and Mark D. DeHart and Richard C. Martineau},
  title     = {{Multiphysics steady-state simulation of the high temperature test reactor with MAMMOTH, BISON, and RELAP-7}},
  booktitle = {{Proceedings of the International Conference on Mathematics and Computational Methods Applied to Nuclear Science \& Engineering (M\&C 2019)}},
  address   = {Portland, Oregon},
  month     = aug # {~25--29,},
  year      = 2019,
  note      = {INL/CON-18-52202, \url{https://www.osti.gov/biblio/1529909}}
}

% MOOSE
% "Those parameters are then incorporated into a fixed-bed adsorption
% model developed in this work using the Mulitphysics Object-Oriented
% Simulation Environment (MOOSE)."
@Article{Ladshaw_2019,
  author  = {Austin P. Ladshaw and Alexander I. Wiechert and Amy K. Welty and Kevin L. Lyon and Jack D. Law and Robert T. Jubin and Costas Tsouris and Sotira Yiacoumi},
  title   = {{Adsorbents and adsorption models for capture of Kr and Xe gas mixtures in fixed-bed columns}},
  journal = {Chemical Engineering Journal},
  month   = nov,
  year    = 2019,
  volume  = 375,
  pages   = {122073},
  note    = {\url{https://doi.org/10.1016/j.cej.2019.122073}}
}

% MOOSE/BISON
@Article{Aly_2019,
  author  = {Zineb Aly and Albert Casagranda and Giovanni Pastore and Nicholas R. Brown},
  title   = {{Variance-based sensitivity analysis applied to the hydrogen migration and redistribution model in Bison. Part II: Uncertainty quantification and optimization}},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2019,
  volume  = 523,
  pages   = {478--489},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.06.023}}
}

% MOOSE/RELAP-7
% https://publications.anl.gov/anlpubs/2019/06/152902.pdf
% https://www.osti.gov/biblio/1526619-development-heat-pipe-reactor-modeling-sam
@TechReport{GHu_2019b,
  author      = {G. Hu and R. Hu and L. Zou},
  title       = {{Development of heat pipe reactor modeling in SAM}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = jun,
  year        = 2019,
  number      = {ANL-NSE-19/9},
  note        = {\url{https://doi.org/10.2172/1526619}}
}

% MOOSE/BISON
% "The BISON fuel performance code with optimized metallic fuel correlations was used."
@Article{Miao_2019,
  author  = {Yinbin Miao and Nicolas Stauff and Aaron Oaks and Abdellatif M. Yacout and Taek K. Kim},
  title   = {Fuel performance evaluation of annular metallic fuels for an advanced fast reactor concept},
  journal = {Nuclear Engineering and Design},
  month   = oct,
  year    = 2019,
  volume  = 352,
  pages   = {110157 (9 pages)},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2019.110157}}
}

% MOOSE/Rattlesnake
% "The discretization of the multigroup neutron transport equations is implemented using RattleSnake"
% Submitted to Numerical Linear Algebra with Applications (Copper Mountain Conference special issue).
% author:Kong scalable multilevel domain decomposition preconditioner with a subspace-based coarsening algorithm
@Misc{Kong_2019c,
  author       = {Fande Kong and Yaqi Wang and Derek R. Gaston and Alexander D. Lindsay and Cody J. Permann and Richard C. Martineau},
  title        = {A scalable multilevel domain decomposition preconditioner with a subspace-based coarsening algorithm for the neutron transport calculations},
  month        = jun,
  year         = 2019,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/1906.07743}}
}

% MOOSE/MARMOT
% "Simulations were conducted using MARMOT, a mesoscale
% fuel performance code based on the MOOSE Framework"
@Article{Hirschhorn_2019,
  author  = {Jacob Hirschhorn and Michael R. Tonks and Assel Aitkaliyeva and Cynthia Adkins},
  title   = {{A study of constituent redistribution in U-Zr fuels using quantitative phase-field modeling and sensitivity analysis}},
  journal = {Journal of Nuclear Materials},
  month   = sep,
  year    = 2019,
  volume  = 523,
  pages   = {143--156},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.05.053}}
}

% libMesh
% "Demonstration component model Optimizations were performed using
% a custom-built code based on the open-source FE library libMesh [12]."
% May be a conference paper in EURATOM 2019
@Article{Curzadd_2019,
  author  = {Bailey Curzadd and Alexander von M{\"{u}}ller and Rudolf Neu and Udo von Toussaint},
  title   = {{Topology optimization of tungsten/copper structures for plasma-facing component applications}},
  journal = {Nuclear Fusion},
  month   = aug,
  year    = 2019,
  volume  = 59,
  number  = 8,
  pages   = {086003},
  note    = {\url{https://doi.org/10.1088/1741-4326/ab1ff5}}
}

% MOOSE/FERRET
% "The numerical solution... was carried out by the Ferret code"
@Article{Kuna_2019,
  author  = {Lukasz Kuna and John Mangeri and Edward P. Gorzkowski and James A. Wollmershauser and Serge Nakhmanson},
  title   = {Mesoscale modeling of polycrystalline light transmission},
  journal = {Acta Materialia},
  month   = aug,
  year    = 2019,
  volume  = 175,
  pages   = {82--89},
  note    = {\url{https://doi.org/10.1016/j.actamat.2019.06.001}}
}

% LibMesh
% "The adjoint error estimation code used in this paper is available for common use via
% implementations in the open source Finite Element library libMesh..."
@Article{Garg_2019,
  author  = {Vikram V. Garg and Roy H. Stogner},
  title   = {Local enhancement of functional evaluation and adjoint error estimation for variational multiscale formulations},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = sep,
  year    = 2019,
  volume  = 354,
  pages   = {119--142},
  note    = {\url{https://doi.org/10.1016/j.cma.2019.05.023}}
}

% MOOSE/Crane/Zapdos
% author:keniley CRANE A MOOSE-based open source tool for plasma chemistry applications
@Misc{Keniley_2019,
  author       = {Shane Keniley and Davide Curreli},
  title        = {{CRANE: A MOOSE-based open source tool for plasma chemistry applications}},
  month        = may,
  year         = 2019,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/1905.10004}}
}

% MOOSE/phase_field
% "Phase-field based numerical simulations were performed using the software package MOOSE."
@Article{Gutierrez_2019,
  author  = {Jacob S. Guti{\'{e}}rrez-Kolar and Lo{\"{i}}c Baggetto and Xiahan Sang and Dongwon Shin and Vitaliy Yurkiv and Farzad Mashayek and Gabriel M. Veith and Reza Shahbazian-Yassar and Raymond R. Unocic},
  title   = {{Interpreting electrochemical and chemical sodiation mechanisms and kinetics in tin antimony battery anodes using in situ TEM and computational methods}},
  journal = {ACS Applied Energy Materials},
  month   = apr,
  year    = 2019,
  volume  = 2,
  number  = 5,
  pages   = {3578--3586},
  note    = {\url{https://doi.org/10.1021/acsaem.9b00310}}
}

% MOOSE/phase_field
% "We perform phase field modeling and simulations... [34]-[36]
% to validate our analytical predictions."
% This is a nature.com journal.
@Article{Gao_2019,
  author  = {Yipeng Gao and Yongfeng Zhang and Daniel Schwen and Chao Jiang and Jian Gan},
  title   = {Bifurcation and pattern symmetry selection in reaction-diffusion systems with kinetic anisotropy},
  journal = {Scientific Reports},
  month   = may,
  year    = 2019,
  volume  = 9,
  pages   = {7835 (9 pages)},
  note    = {\url{https://doi.org/10.1038/s41598-019-44303-2}}
}

% MOOSE/Rattlesnake
% author:kong parallel memory-efficient all-at-once algorithms for the sparse matrix triple products in multigrid methods
@Misc{Kong_2019b,
  author       = {Fande Kong},
  title        = {{Parallel memory-efficient all-at-once algorithms for the sparse matrix triple products in multigrid methods}},
  month        = may,
  year         = 2019,
  howpublished = {ArXiv e-print},
  note         = {\url{https://arxiv.org/abs/1905.08423}}
}

% libMesh
% "The implementation is done in libMesh using the residual-based variational multiscale method."
@Article{Gesenhues_2019,
  author  = {Linda Gesenhues and Jos{\'{e}} J. Camata and Adriano M. A. C{\^{o}}rtes and Fernando A. Rochinha and Alvaro L. G. A. Coutinho},
  title   = {{Finite element simulation of complex dense granular flows using a well-posed regularization of the $\mu(I)$-rheology}},
  journal = {Computers \& Fluids},
  month   = jun,
  year    = 2019,
  volume  = 188,
  pages   = {102--113},
  note    = {\url{https://doi.org/10.1016/j.compfluid.2019.05.012}}
}

% MOOSE/Pronghorn
@Article{Novak_2019,
  author  = {A. J. Novak and J. W. Peterson and L. Zou and D. Andr{\v{s}} and R. N. Slaybaugh and R. C. Martineau},
  title   = {{Validation of Pronghorn friction-dominated porous media thermal-hydraulics model with the SANA experiments}},
  journal = {Nuclear Engineering and Design},
  month   = aug,
  year    = 2019,
  volume  = 350,
  pages   = {182--194},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2019.04.037}}
}

% BISON
% "The model of fission gas behavior ... presented in this paper is currently
% available in the BISON fuel performance code of Idaho National Laboratory."
@Article{Barani_2019b,
  author  = {T. Barani and G. Pastore and D. Pizzocri and D. A. Andersson and C. Matthews and A. Alfonsi and K. A. Gamble and P. {Van Uffelen} and L. Luzzi and J. D. Hales},
  title   = {{Multiscale modeling of fission gas behavior in U$_3$Si$_2$ under LWR conditions}},
  journal = {Journal of Nuclear Materials},
  month   = aug,
  year    = 2019,
  volume  = 522,
  pages   = {97--110},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.04.037}}
}

% BISON
% "Coupled thermomechanical analysis for both cladding types
% was performed using the BISON fuel performance code."
@Article{George_2019,
  author  = {Nathan M. George and Ryan T. Sweet and Jeffrey J. Powers and Andrew Worrall and Kurt A. Terrani and Brian D. Wirth and G. Ivan Maldonado},
  title   = {{Full-core analysis for FeCrAl enhanced accident tolerant fuel in boiling water reactors}},
  journal = {Annals of Nuclear Energy},
  month   = oct,
  year    = 2019,
  volume  = 132,
  pages   = {486--503},
  note    = {\url{https://doi.org/10.1016/j.anucene.2019.04.025}}
}

% libMesh
% "[libMesh-sedimentation] is a simulation solver, implemented in C++ ...
% built on top of a widely used parallel fine element framework, libMesh..."
@Article{Souza_2019,
  author  = {Renan Souza and V{\'{i}}tor Silva and Jos{\'{e}} J. Camata and Alvaro L. G. A. Coutinho and Patrick Valduriez and Marta Mattoso},
  title   = {Keeping track of user steering actions in dynamic workflows},
  journal = {Future Generation Computer Systems},
  month   = oct,
  year    = 2019,
  volume  = 99,
  pages   = {624--643},
  note    = {\url{https://doi.org/10.1016/j.future.2019.05.011}}
}

% MOOSE/RattleSnake
% "in the work presented here we have further adapted Rattlesnake
% to simulate spectrally-dependent phonon transport"
@Article{Harter_2019,
  author  = {Jackson R. Harter and S. Aria Hosseini and Todd S. Palmer and P. Alex Greaney},
  title   = {Prediction of thermal conductivity in dielectrics using fast, spectrally-resolved phonon transport simulations},
  journal = {International Journal of Heat and Mass Transfer},
  month   = dec,
  year    = 2019,
  volume  = 144,
  pages   = {118595 (15 pages)},
  note    = {\url{https://doi.org/10.1016/j.ijheatmasstransfer.2019.118595}, ArXiv e-print: \url{https://arxiv.org/abs/1905.03898}}
}

% MOOSE/phase_field
% "[MOOSE] was used to construct a two-dimensional simulation of the
% Al-Cu microstructure as described in a previous publication..."
@Article{Shower_2019b,
  author  = {Patrick Shower and James Morris and Dongwon Shin and Balasubramaniam Radhakrishnan and Jonathan Poplawsky and Amit Shyam},
  title   = {{Mechanisms for stabilizing $\theta'$(Al$_2$Cu) precipitates at elevated temperatures investigated with phase field modeling}},
  journal = {Materialia},
  month   = jun,
  year    = 2019,
  volume  = 6,
  pages   = {100335 (45 pages)},
  note    = {\url{https://doi.org/10.1016/j.mtla.2019.100335}}
}

% MOOSE/navier_stokes
% "... the numerical simulations were performed with ... (MOOSE) framework."
@Article{Galek_2019,
  author  = {Rafa{\l{}} Ga{\l{}}ek and Piotr Strzelczyk},
  title   = {{Velocity profiles of an electrohydrodynamic flow generator: CFD and experiment}},
  journal = {Journal of Electrostatics},
  month   = may,
  year    = 2019,
  volume  = 99,
  pages   = {19--30},
  note    = {\url{https://doi.org/10.1016/j.elstat.2019.04.003}}
}

% MOOSE
% "FEA using MOOSE Framework [23] was performed for the metallic nanofoam generated in MD"
@Article{Ke_2019,
  author  = {Hang Ke and Andres {Garcia Jimenez} and Ioannis Mastorakos},
  title   = {A multiscale approach to predict the mechanical properties of copper nanofoams},
  journal = {MRS Advances (Nanomaterials)},
  month   = jan,
  year    = 2019,
  volume  = 4,
  number  = {5--6},
  pages   = {293--298},
  note    = {\url{https://doi.org/10.1557/adv.2019.56}}
}

% MOOSE/BISON/Rattlesnake, etc.
% This is a planning/evaluation technical report which does not
% present any results but several MOOSE-based applications are
% discussed for use in future tasks.
@TechReport{Matthews_2019,
  author      = {Christopher Matthews and Robert Blake Wilkerson and Russell Craig Johns and Holly Renee Trellue and Richard C. Martineau},
  title       = {{Task 1: Evaluation of M\&S tools for micro-reactor concepts}},
  institution = {Los Alamos National Laboratory},
  day         = apr,
  month       = 4,
  year        = 2019,
  number      = {LA-UR-19-22263},
  note        = {\url{https://doi.org/10.2172/1505953}}
}

% Rattlesnake
% "The Rattlesnake calculations used both NDA schemes..."
@Article{Hammer_2019b,
  author  = {Hans R. Hammer and Jim E. Morel and Yaqi Wang},
  title   = {Nonlinear diffusion acceleration of the least-squares transport equation in geometries with voids},
  journal = {Nuclear Science and Engineering},
  year    = 2019,
  volume  = 193,
  number  = 5,
  pages   = {453--480},
  note    = {\url{https://doi.org/10.1080/00295639.2018.1542865}}
}

% BISON
% This is a review paper but results from BISON are shown and discussed.
@Article{Motta_2019,
  author  = {Arthur T. Motta and Laurent Capolungo and Long-Qing Chen and Mahmut Nedim Cinbiz and Mark R. Daymond and Donald A. Koss and Evrard Lacroix and Giovanni Pastore and Pierre-Cl{\'{e}}ment A. Simon and Michael R. Tonks and Brian D. Wirth and Mohammed A. Zikry},
  title   = {{Hydrogen in zirconium alloys: A review}},
  journal = {Journal of Nuclear Materials},
  month   = mar,
  year    = 2019,
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.02.042}}
}

% MOOSE
% "The parallel computational framework MOOSE [45] has been adopted to
% solve the coupled PDEs, the MultiApps and Transfer systems [46] of
% MOOSE are used to do the two-level coupling and data transfer
% between the two different levels."
@Article{Bai_2019,
  author  = {Yang Bai and Ying Zhao and Wei Liu and Bai-Xiang Xu},
  title   = {Two-level modeling of lithium-ion batteries},
  journal = {Journal of Power Sources},
  month   = may,
  year    = 2019,
  volume  = 422,
  pages   = {92--103},
  note    = {\url{https://doi.org/10.1016/j.jpowsour.2019.03.026}}
}

% MOOSE/phase_field
% "In order to understand the underlying mechanism of Zn dendrites formation and their
% suppression a phase-field model (PFM) [1,2] is developed and applied."
% The citations here are to the MARMOT paper and a 2018 paper by the
% authors that used MOOSE.
% https://ecs.confex.com/ecs/235/meetingapp.cgi/Paper/119591
@InProceedings{Yurkiv_2019,
  author    = {Vitaliy Yurkiv and Tara Foroozan and Ajaykrishna Ramasubramanian and Roberto Paoli and Marco Ragone and Reza Shahbazian-Yassar and Farzad Mashayek},
  title     = {{Modeling and experimental studies of Zn dendrites formation and growth}},
  booktitle = {{Proceedings of the 235th Electrochemical Society Meeting (ECS 2019)}},
  address   = {Dallas, TX},
  pages     = {603},
  month     = may # {~26--30,},
  year      = 2019,
  note      = {\url{https://doi.org/10.1149/MA2019-01/6/603}}
}

% MOOSE
% "Equation [2] was implemented in the MOOSE framework ..."
% https://www.researchgate.net/publication/340185718_Impact_of_Effective_Normal_Stress_on_Capillary_Pressure_in_a_Single_Natural_Fracture
@InProceedings{Lima_2019,
  author    = {Marina Grimm Lima and Philipp Sch{\"{a}}dle and Daniel Vogler and Martin O. Saar and Xiang-Zhao Kong},
  title     = {{Impact of effective normal stress on capillary pressure in a single natural fracture}},
  booktitle = {{Proceedings of the European Geothermal Congress 2019 (EGC 2019)}},
  address   = {Den Haag, The Netherlands},
  month     = jun # {~11--14,},
  year      = 2019,
  note      = {\url{https://doi.org/10.21203/rs.2.17644/v1}}
}

% MOOSE/SAM
% https://publications.anl.gov/anlpubs/2019/03/150747.pdf
% https://www.osti.gov/biblio/1499041-reactivity-feedback-modeling-sam
@TechReport{GHu_2019,
  author      = {G. Hu and G. Zhang and R. Hu},
  title       = {{Reactivity feedback modeling in SAM}},
  institution = {Argonne National Laboratory},
  day         = 1,
  month       = feb,
  year        = 2019,
  number      = {ANL/NSE-19/1},
  note        = {\url{https://doi.org/10.2172/1499041}}
}

% MOOSE/Golem
@Article{Freymark_2019,
  author  = {Jessica Freymark and Judith Bott and Mauro Cacace and Moritz Ziegler and Magdalena Scheck-Wenderoth},
  title   = {{Influence of the main border faults on the 3D hydraulic field of the Central Upper Rhine Graben}},
  journal = {Geofluids},
  month   = mar,
  year    = 2019,
  volume  = 2019,
  pages   = {7520714 (21 pages)},
  note    = {\url{https://doi.org/10.1155/2019/7520714}}
}

% MOOSE/Ferret
% "Numerical phase-field calculations were performed using the FERRET package..."
% This is a nature.com article.
@Article{Lukyanchuk_2019,
  author  = {I. Luk'yanchuk and Y. Tikhonov and A. Sen{\'{e}} and A. Razumnaya and V. M. Vinokur},
  title   = {Harnessing ferroelectric domains for negative capacitance},
  journal = {Communications Physics},
  month   = feb,
  year    = 2019,
  volume  = 2,
  number  = 22,
  pages   = {1--6},
  note    = {\url{https://doi.org/10.1038/s42005-019-0121-0}, ArXiv e-print: \url{https://arxiv.org/abs/1811.12103}}
}

% libMesh
% "Both the procedures are implemented in the C++ open source library libMesh..."
@Article{Ballarin_2019,
  author  = {Francesco Ballarin and Alessandro D'Amario and Simona Perotto and Gianluigi Rozza},
  title   = {{A POD--selective inverse distance weighting method for fast parametrized shape morphing}},
  journal = {International Journal for Numerical Methods in Engineering},
  month   = feb,
  year    = 2019,
  volume  = 117,
  number  = 8,
  pages   = {860--884},
  note    = {\url{https://doi.org/10.1002/nme.5982}, ArXiv e-print: \url{https://arxiv.org/abs/1710.09243v2}}
}

% MOOSE/Rattlesnake
% "The high-order--low-order system is represented by two
% sets of equation systems in Rattlesnake."
@Article{Hammer_2019,
  author  = {Hans R. Hammer and Jim E. Morel and Yaqi Wang},
  title   = {{A weighted least-squares transport equation compatible with source iteration and voids}},
  journal = {Nuclear Science and Engineering},
  year    = 2019,
  volume  = 193,
  number  = 4,
  pages   = {388--403},
  note    = {\url{https://doi.org/10.1080/00295639.2018.1525977}}
}

% MOOSE/SAM
@Article{Hu_2019,
  author  = {Rui Hu},
  title   = {{Three-dimensional flow model development for thermal mixing and stratification modeling in reactor system transients analyses}},
  journal = {Nuclear Engineering and Design},
  month   = apr,
  year    = 2019,
  volume  = 345,
  pages   = {209--215},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2019.02.018}}
}

% MOOSE/MAMMOTH
% "... a simplified semi-infinite TREAT fuel element model of both the HEU
% and proposed LEU configurations was simulated using MAMMOTH..."
@Article{Zabriskie_2019,
  author  = {Adam Zabriskie and Sebastian Schunert and Daniel Schwen and Javier Ortensi and Benjamin Baker and Yaqi Wang and Vincent Labour{\'{e}} and Mark DeHart and Wade Marcum},
  title   = {{A coupled multiscale approach to TREAT LEU feedback modeling using a binary-collision Monte-Carlo-informed heat source}},
  journal = {Nuclear Science and Engineering},
  year    = 2019,
  volume  = 193,
  number  = 4,
  pages   = {368--387},
  note    = {\url{https://doi.org/10.1080/00295639.2018.1528802}}
}

% MOOSE
% "The Cahn--Hilliard, Allen--Cahn and Navier--Stokes equations are solved in MOOSE framework..."
@Article{Shang_2019,
  author  = {Shengyan Shang and Anil Kunwar and Yanfeng Wang and Lin Qu and Haitao Ma and Yunpeng Wang},
  title   = {{Growth behavior of preferentially scalloped intermetallic compounds at extremely thin peripheral Sn/Cu interface}},
  journal = {Journal of Materials Science: Materials in Electronics},
  month   = feb,
  year    = 2019,
  volume  = 30,
  number  = 3,
  pages   = {2872--2887},
  note    = {\url{https://doi.org/10.1007/s10854-018-00564-7}}
}

% MOOSE/Danphe
% "Navier-Stokes equation were solved for a simulation time
% of 120s using finite element method (FEM) in Danphe application of ...
% (MOOSE) framework"
@Article{Shang_2019b,
  author  = {Shengyan Shang and Yanfeng Wang and Yunpeng Wang and Haitao Ma and Anil Kunwar},
  title   = {{Enhancement of hardness of bulk solder by doping Cu nanoparticles at the interface of Sn/Cu solder joint}},
  journal = {Microelectronic Engineering},
  month   = mar,
  year    = 2019,
  volume  = 208,
  pages   = {47--53},
  note    = {\url{https://doi.org/10.1016/j.mee.2019.01.009}}
}

% libMesh
% "The algorithm was implemented with libMesh, a C++ finite element
% library that supports arbitrary unstructured discretizations..."
@Article{Feng_2019,
  author  = {Xinzeng Feng and David A. {Hormuth II} and Thomas E. Yankeelov},
  title   = {{An adjoint-based method for a linear mechanically-coupled tumor model: Application to estimate the spatial variation of murine glioma growth based on diffusion weighted magnetic resonance imaging}},
  journal = {Computational Mechanics},
  month   = feb,
  year    = 2019,
  volume  = 63,
  number  = 2,
  pages   = {159--180},
  note    = {\url{https://doi.org/10.1007/s00466-018-1589-2}}
}

% MOOSE/Rattlesnake
% The implementation is performed in Rattlesnake ..."
@Article{Laboure_2019,
  author  = {Vincent Labour{\'{e}} and Yaqi Wang and Javier Ortensi and Sebastian Schunert and Frederick Gleicher and Mark DeHart and Richard Martineau},
  title   = {Hybrid super homogenization and discontinuity factor method for continuous finite element diffusion},
  journal = {Annals of Nuclear Energy},
  month   = jun,
  year    = 2019,
  volume  = 128,
  pages   = {443--454},
  note    = {\url{https://doi.org/10.1016/j.anucene.2019.01.003}}
}

% MOOSE/phase_field
% "The non-dimensionalized governing equations were discretized using the MOOSE framework..."
@Article{Aagesen_2019,
  author  = {Larry K. Aagesen and Daniel Schwen and Michael R. Tonks and Yongfeng Zhang},
  title   = {{Phase-field modeling of fission gas bubble growth on grain boundaries and triple junctions in UO$_2$ nuclear fuel}},
  journal = {Computational Materials Science},
  month   = apr,
  year    = 2019,
  volume  = 161,
  pages   = {35--45},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2019.01.019}}
}

% MOOSE/phase_field
% "Simulations are run using ... (MOOSE)"
@Article{Bair_2019,
  author  = {Jacob L. Bair and David G. Abrecht and Dallas D. Reilly and Matthew T. Athon and Jordan F. Corbey},
  title   = {{Phase field model of uranium carbide solidification through a combined KKS and orientation field approach}},
  journal = {Journal of Physics: Condensed Matter},
  month   = jan,
  year    = 2019,
  volume  = 31,
  number  = 12,
  pages   = {125901},
  note    = {\url{https://doi.org/10.1088/1361-648X/aafd69}}
}

% BISON
@Article{Deng_2019,
  author  = {Yangbin Deng and Koroush Shirvan and Yingwei Wu and Guanghui Su},
  title   = {{Utilization of 3D fuel modeling capability of BISON to derive new insights in performance of advanced PWR fuel concepts}},
  journal = {Journal of Nuclear Materials},
  month   = apr,
  year    = 2019,
  volume  = 516,
  pages   = {271--288},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2019.01.032}}
}

% IBAMR
% https://aporrasval.github.io/images/PERvsResonanceJellyfishPaper.pdf
@Article{Hoover_2019,
  author  = {Alexander P. Hoover and Antonio J. Porras and Laura A. Miller},
  title   = {{Pump or coast: The role of resonance and passive energy recapture in medusan swimming performance}},
  journal = {Journal of Fluid Mechanics},
  month   = mar,
  year    = 2019,
  volume  = 863,
  pages   = {1031--1061},
  note    = {\url{https://doi.org/10.1017/jfm.2018.1007}}
}

% MOOSE
% "Equations (6) and (7) are solved with the aid of ... (MOOSE)"
@Article{Goli_2019,
  author  = {Elyas Goli and Ian D. Robertson and Harshit Agarwal and Emmy L. Pruitt and Joshua M. Grolman and Philippe H. Geubelle and Jeffrey S. Moore},
  title   = {Frontal polymerization accelerated by continuous conductive elements},
  journal = {Journal of Applied Polymer Science},
  month   = may,
  year    = 2019,
  volume  = 136,
  number  = 17,
  pages   = {47418},
  note    = {\url{https://doi.org/10.1002/app.47418}}
}

% MOOSE/phase_field
% "A two-dimensional phase field simulation of the Al-Cu system was implemented in the ... (MOOSE) framework"
@Article{Shower_2019,
  author  = {Patrick Shower and James R. Morris and Dongwon Shin and Balasubramaniam Radhakrishnan and Lawrence F. Allard and Amit Shyam},
  title   = {{Temperature-dependent stability of $\theta'$-Al$_2$Cu precipitates investigated with phase field simulations and experiments}},
  journal = {Materialia},
  month   = mar,
  year    = 2019,
  volume  = 5,
  pages   = {100185 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.mtla.2018.100185}}
}

% BISON
% "The BISON finite element modeling tool ... was used in this study"
@Article{Seibert_2019,
  author  = {Rachel L. Seibert and Brian C. Jolly and Mehdi Balooch and Daniel P. Schappel and Kurt A. Terrani},
  title   = {{Production and characterization of TRISO fuel particles with multilayered SiC}},
  journal = {Journal of Nuclear Materials},
  month   = mar,
  year    = 2019,
  volume  = 515,
  pages   = {215--226},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2018.12.024}}
}

% libMesh
% "Our implementation relies on the distributed data structures provided by libMesh..."
@Article{Mesgarnejad_2019,
  author  = {A. Mesgarnejad and A. Imanian and A. Karma},
  title   = {Phase-field models for fatigue crack growth},
  journal = {Theoretical and Applied Fracture Mechanics},
  month   = oct,
  year    = 2019,
  volume  = 103,
  pages   = {102282 (13 pages)},
  note    = {\url{https://doi.org/10.1016/j.tafmec.2019.102282}, ArXiv e-print: https://arxiv.org/abs/1901.00757}
}

% SCRBE
% Conference was in 2017, proceedings was published in 2019.
@InProceedings{Ballani_2019,
  author    = {Jonas Ballani and Phuong Huynh and David Knezevic and Loi Nguyen and Anthony T. Patera},
  title     = {{PDE apps for acoustic ducts: A parameterized component-to-system model-order-reduction approach}},
  booktitle = {{Proceedings of Numerical Mathematics and Advanced Applications (ENUMATH 2017)}},
  address   = {Voss, Norway},
  editor    = {F. A. Radu and K. Kumar and I. Berre and J. M. Nordbotten and I. S. Pop},
  pages     = {3--33},
  month     = jan,
  year      = 2019,
  note      = {\url{https://doi.org/10.1007/978-3-319-96415-7_1}}
}

% MOOSE/Grizzly
% The conference was held in August 2017, the proceedings did not come out until 2019.
@InProceedings{Spencer_2019c,
  author    = {Benjamin W. Spencer and Hai Huang},
  title     = {{Coupled physics simulation of expansive reactions in concrete with the Grizzly code}},
  booktitle = {{Proceedings of the 18th International Conference on Environmental Degradation of Materials in Nuclear Power Systems -- Water Reactors}},
  address   = {Portland, Oregon},
  editor    = {J. H. Jackson and D. Paraventi and M. Wright},
  pages     = {1347--1357},
  month     = jan,
  year      = 2019,
  note      = {\url{https://doi.org/10.1007/978-3-030-04639-2_88}}
}

% MOOSE/RattleSnake
% "Implementation of smoothly varying cross sections is supported within the Rattlesnake radiation multiphysics code..."
@Article{Schunert_2019,
  author  = {Sebastian Schunert and Yaqi Wang and Javier Ortensi and Vincent Labour{\'{e}} and Frederick Gleicher and Mark DeHart and Richard Martineau},
  title   = {{Control rod treatment for FEM based radiation transport methods}},
  journal = {Annals of Nuclear Energy},
  month   = may,
  year    = 2019,
  volume  = 127,
  pages   = {293--302},
  note    = {\url{https://doi.org/10.1016/j.anucene.2018.11.054}}
}

% MOOSE/BISON
@Article{Barani_2019,
  author  = {T. Barani and D. Pizzocri and G. Pastore and L. Luzzi and J. D. Hales},
  title   = {{Isotropic softening model for fuel cracking in BISON}},
  journal = {Nuclear Engineering and Design},
  month   = feb,
  year    = 2019,
  volume  = 342,
  pages   = {257--263},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2018.12.005}}
}

% MOOSE
% "It should be noted that all these peridynamic models are available in the open-source MOOSE package..."
@Article{Chen_2019,
  author  = {Hailong Chen},
  title   = {A comparison study on peridynamic models using irregular non-uniform spatial discretization},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = mar,
  year    = 2019,
  volume  = 345,
  pages   = {539--554},
  note    = {\url{https://doi.org/10.1016/j.cma.2018.11.001}}
}

% MOOSE
% "The resulting nonlinear system of equations is implemented within ... (MOOSE)"
@Article{Liu_2019,
  author  = {Yingjie Liu and Christian Peco and John Dolbow},
  title   = {A fully coupled mixed finite element method for surfactants spreading on thin liquid films},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = mar,
  year    = 2019,
  volume  = 345,
  pages   = {429--453},
  note    = {\url{https://doi.org/10.1016/j.cma.2018.10.045}}
}

% MOOSE
% "The two 1D finite element solvers and the Picard Iteration scheme used to couple them are implemented in a MOOSE application"
@Article{Senecal_2019,
  author  = {Jaron P. Senecal and Wei Ji},
  title   = {Characterization of the proper generalized decomposition method for fixed-source diffusion problems},
  journal = {Annals of Nuclear Energy},
  month   = apr,
  year    = 2019,
  volume  = 126,
  pages   = {68--83},
  note    = {\url{https://doi.org/10.1016/j.anucene.2018.10.062}}
}

% MOOSE/Hognose
% "HOGNOSE is implemented using the finite element method, and is formulated using ... (MOOSE)"
@Article{Dykhuis_2019,
  author  = {Andrew F. Dykhuis and Michael P. Short},
  title   = {{Phase field modeling of irradiation-enhanced corrosion of Zircaloy-4 in PWRs}},
  journal = {Corrosion Science},
  month   = jan,
  year    = 2019,
  volume  = 146,
  pages   = {179--191},
  note    = {\url{https://doi.org/10.1016/j.corsci.2018.10.026}}
}

% libMesh
% "The calculation of dispersion band structure and the topology optimization
% procedure are implemented based on the open source finite element library LibMesh [32]."
@Article{Rong_2019,
  author  = {Junjie Rong and Wenjing Ye},
  title   = {Topology optimization design scheme for broadband non-resonant hyperbolic elastic metamaterials},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  month   = feb,
  year    = 2019,
  volume  = 344,
  pages   = {819--836},
  note    = {\url{https://doi.org/10.1016/j.cma.2018.10.034}}
}

% MOOSE
@Article{Peco_2019,
  author  = {C. Peco and Y. Liu and C. Rhea and J. E. Dolbow},
  title   = {Models and simulations of surfactant-driven fracture in particle rafts},
  journal = {International Journal of Solids and Structures},
  month   = jan,
  year    = 2019,
  volume  = {156--157},
  pages   = {194--209},
  note    = {\url{https://doi.org/10.1016/j.ijsolstr.2018.08.014}}
}

% MOOSE/BISON
@Article{Singh_2019,
  author  = {G. Singh and J. Gorton and D. Schappel and N. R. Brown and Y. Katoh and B. D. Wirth and K. A. Terrani},
  title   = {{Deformation analysis of SiC-SiC channel box for BWR applications}},
  journal = {Journal of Nuclear Materials},
  month   = jan,
  year    = 2019,
  volume  = 513,
  pages   = {71--85},
  note    = {\url{https://doi.org/10.1016/j.jnucmat.2018.10.045}}
}

% MOOSE/Rattlesnake
@Article{Prince_2019,
  author  = {Zachary M. Prince and Jean C. Ragusa},
  title   = {Multiphysics reactor-core simulations using the improved quasi-static method},
  journal = {Annals of Nuclear Energy},
  month   = jan,
  year    = 2019,
  volume  = 125,
  pages   = {186--200},
  note    = {\url{https://doi.org/10.1016/j.anucene.2018.10.056}}
}

% MOOSE/Grizzly
@Article{Spencer_2019b,
  author  = {B. W. Spencer and W. M. Hoffman and M. A. Backman},
  title   = {{Modular system for probabilistic fracture mechanics analysis of embrittled reactor pressure vessels in the Grizzly code}},
  journal = {Nuclear Engineering and Design},
  month   = jan,
  year    = 2019,
  volume  = 341,
  pages   = {25--37},
  note    = {\url{https://doi.org/10.1016/j.nucengdes.2018.10.015}}
}

% MOOSE/Phase-field
@Article{Hirschhorn_2018,
  author  = {Jacob Hirschhorn and Michael Tonks and Assel Aitkaliyeva and Cynthia Adkins},
  title   = {{Development and verification of a phase-field model for the equilibrium thermodynamics of U-Pu-Zr}},
  journal = {Annals of Nuclear Energy},
  month   = feb,
  year    = 2019,
  volume  = 124,
  pages   = {490--502},
  note    = {\url{https://doi.org/10.1016/j.anucene.2018.10.029}}
}

% Hyrax
@Article{Lin_2019,
  author  = {Jun-{li} Lin and Brent J. Heuser},
  title   = {{Modeling hydrogen solvus in zirconium solution by the mesoscale phase-field modeling code Hyrax}},
  journal = {Computational Materials Science},
  month   = jan,
  year    = 2019,
  volume  = 156,
  pages   = {224--231},
  note    = {\url{https://doi.org/10.1016/j.commatsci.2018.09.051}}
}
